A Question about Effect of Force on Rigid Bodies....

In summary, the conversation discusses the concept of applying a force to a wall and the resulting acceleration. It is noted that in the real world, objects are not perfectly rigid and fixed in place, and there is a discussion of the ladder paradox and the transmission of force in special relativity. The conversation also touches on the idea that the wall is attached to the ground and when a force is applied, the ground pushes back, resulting in no noticeable movement.
  • #1
Kaneki123
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Okay...I have a simple question that, if we apply a force to a wall, then according to F=ma, the wall should have some acceleration at all the points we are applying the force...My question is that since the wall does not move move back, does this acceleration only result in a slight deformation of wall (something hard to notice) or is the wall so ''rigid'' that it does not ''allow this acceleration''?
 
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  • #3
You started with F=ma, but really you should start with sum F = m*a. When you apply a force in one direction (not enough to move the wall), the supports for the wall develop and equal force in the opposite direction. This way, the sum of forces remains zero, and hence no acceleration.
 
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  • #4
The wall is probably attached to the ground. When you push the wall, the ground pushes back. Now, if you are standing on the ground, then when you push the wall with a forward force, you push the ground with a backward force with your feet. These cancel, so the ground doesn't move. Irregardless, the ground is so big and heavy you wouldn't notice if it did move a little.
 
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Related to A Question about Effect of Force on Rigid Bodies....

1. How does force affect the motion of a rigid body?

Force is a physical quantity that can cause a change in the motion of a body. In the case of a rigid body, force can cause it to accelerate or decelerate, change direction, or rotate.

2. What is the difference between a rigid body and a non-rigid body?

A rigid body is a theoretical concept in physics that assumes a body does not deform under the influence of external forces. On the other hand, a non-rigid body is one that can deform under the influence of external forces.

3. How does the size and direction of the force affect the motion of a rigid body?

The size and direction of the force applied to a rigid body determine the magnitude and direction of the resulting motion. Larger forces will cause greater acceleration, while forces applied in different directions can result in changes in direction or rotation.

4. Can a rigid body be in equilibrium under the influence of external forces?

Yes, a rigid body can be in equilibrium when the sum of all the external forces acting on it is equal to zero. In this state, the body will not experience any changes in motion or rotation.

5. How does the distribution of mass affect the effect of force on a rigid body?

The distribution of mass within a rigid body can affect how it responds to external forces. A body with more mass distributed towards one end will be more resistant to changes in motion or rotation at that end.

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